Construction of a multifunctional dual-network chitosan composite aerogel with enhanced tunability

Typically, the tailorable versatility of biomass aerogels is attributed to the tunable internal molecular structure, providing broad application prospects. Herein, a simple and novel preparation strategy for developing multifunctional dual-network chitosan/itaconic acid (CSI) aerogel with tunability...

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Published in:International journal of biological macromolecules 2024-01, Vol.254 (Pt 3), p.128052-128052, Article 128052
Main Authors: Yang, Jiazhu, Du, Meiqing, Wang, Yi, Yang, Lijuan, Yang, Jiaying, Yang, Xin, Liu, Qiuyi, Wu, Qihong, Zhao, Lijuan, Hong, Jing
Format: Article
Language:English
Subjects:
Amides
Anti-Bacterial Agents
Biomass
Chitosan
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cited_by cdi_FETCH-LOGICAL-c311t-6f255f2c0e2cc7adbfe3cc3e313210f96da3a39b80254c78da44bb99ebcebc763
cites cdi_FETCH-LOGICAL-c311t-6f255f2c0e2cc7adbfe3cc3e313210f96da3a39b80254c78da44bb99ebcebc763
container_end_page 128052
container_issue Pt 3
container_start_page 128052
container_title International journal of biological macromolecules
container_volume 254
creator Yang, Jiazhu
Du, Meiqing
Wang, Yi
Yang, Lijuan
Yang, Jiaying
Yang, Xin
Liu, Qiuyi
Wu, Qihong
Zhao, Lijuan
Hong, Jing
description Typically, the tailorable versatility of biomass aerogels is attributed to the tunable internal molecular structure, providing broad application prospects. Herein, a simple and novel preparation strategy for developing multifunctional dual-network chitosan/itaconic acid (CSI) aerogel with tunability by using freeze-drying and vacuum heat treatment techniques. By regulating the temperature and duration of amidation reaction, electrostatic interactions between chitosan (CS) and itaconic acid (IA) was abstemiously converted into amide bond in frozen aerogel, with IA acting as an efficient in-situ cross-linking agent, which yielded CSI aerogels with different electrostatic/covalent cross-linking ratios. Heat treatment and tuning of the covalent cross-linking degree of CSI aerogel changed their microstructure and density, which led to enhanced performance. For example, the specific modulus of CSI1.5-160 °C-5 h (71.69 ± 2.55 MPa·cm ·g ) increased by 119 % compared to that of CSI1.5 (32.73 ± 0.718 MPa·cm ·g ), converting the material from superhydrophilic to hydrophobic (124° ± 3.6°), exhibiting favorable stability and heat transfer performance. In addition, part of -NH of CS was retained in the electrostatic cross-linked network, endowing the aerogel with antibacterial properties. The findings of this study provide insights and a reliable strategy for fabricating biomass aerogel with good comprehensive performance via ingenious structural design and simple regulation methods.
doi_str_mv 10.1016/j.ijbiomac.2023.128052
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subjects Amides
Anti-Bacterial Agents
Biomass
Chitosan
title Construction of a multifunctional dual-network chitosan composite aerogel with enhanced tunability
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